Antimicrobial Activity of Phosphites Against Different Potato Pathogens Antimikrobielle Aktivität Von Phosphiten Gegenüber Verschiedenen Kartoffelpathogenen M.C

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Antimicrobial Activity of Phosphites Against Different Potato Pathogens Antimikrobielle Aktivität Von Phosphiten Gegenüber Verschiedenen Kartoffelpathogenen M.C CORE Metadata, citation and similar papers at core.ac.uk Provided by Centro de Servicios en Gestión de Información Journal of Plant Diseases and Protection, 117 (3), 102–109, 2010, ISSN 1861-3829. © Eugen Ulmer KG, Stuttgart Antimicrobial activity of phosphites against different potato pathogens Antimikrobielle Aktivität von Phosphiten gegenüber verschiedenen Kartoffelpathogenen M.C. Lobato*, F.P. Olivieri, G.R. Daleo & A.B. Andreu Instituto de Investigaciones Biológicas, Facultad de Ciencias Exactas y Naturales, Universidad Nacional de Mar del Plata, Mar del Plata, Argentina * Corresponding author, e-mail [email protected] Received 7 January 2010; accepted 20 April 2010 Abstract von den ähnlich wirksamen CaPhi und KPhi. Die Wirkung von CuPhi und CaPhi kann zum Teil durch die Ansäuerung der Phosphites have low-toxicity on the environment and show verwendeten Medien erklärt werden. Die mit KPhi erhaltenen high efficacy in controlling oomycete diseases in plants, both Ergebnisse zeigen dagegen, dass das Phosphit-Anion selbst by a direct and an indirect mechanism. We have shown that antimikrobiell wirksam ist. Die Zunahme der Ionenstärke they are also effective in reducing disease symptoms produced nach Phosphit-Applikation war nicht für die antimikrobielle by Phytophthora infestans, Fusarium solani and Rhizoctonia Wirkung verantwortlich. Die Beeinträchtigung der Sporen- solani when applied to potato seed tubers. To gain better in- keimung von F. solani zeigte, dass die Wirkung der Phosphite sight into the direct mode of action of phosphites on different eher fungistatisch als fungizid ist. potato pathogens, and to ascertain chemical determinants in their direct antimicrobial activity, four potato pathogens were Stichwörter: Fusarium solani,Krankheitsbekämpfung, assayed with respect to sensitivity toward calcium, potassium Phytophthora infestans, Rhizoctonia solani, Streptomyces and copper phosphites (CaPhi, KPhi and CuPhi, respectively). scabies, Wachstumsbeeinträchtigung The influence of acidification and ionic strength changes after Phi addition on the antimicrobial activity, and the fungicidal or fungistatic activity, were evaluated. Results showed that 1Introduction phosphites were able to inhibit growth of all pathogens. Phytophthora infestans was the most inhibited pathogen by all In the world, conventional potato production is not possible phosphites, followed by Streptomyces scabies, while Rhizocto- without fungicides. However, these increase production costs, nia solani and Fusarium solani were less inhibited. CuPhi had and those commonly used are considered as environmental the highest antimicrobial activity against the four pathogens and human health hazards. An alternative to fungicide use are analysed, and CaPhi and KPhi showed similar antimicrobial the phosphites (Phi), compounds derived from phosphorous activities. Inhibitions by CuPhi and CaPhi could be partially acid (H3PO3) with low toxicity for the environment. explained by acidification of the media. However, results Phosphorous acid is classified by the US Environmental obtained with KPhi demonstrated that the phosphite anion Protection Agency (US-EPA) as a biopesticide (http://www. has antimicrobial activity itself. The increase in ionic strength epa.gov/pesticides/biopesticides/). Pesticide properties of this after Phi addition was not important in the antimicrobial activ- compound were discovered by scientists at Rhône-Poulenc ity of Phi. The activity of phosphites on germination of F. solani Agrochimie Laboratories in France during the 1970 s. Soon spores showed to be fungistatic rather than fungicidal. after, fosetyl-Al (aluminium tris O-ethyl phosphonate) was for- mulated under the trade name Aliette and released for com- Key words: disease control, Fusarium solani,growth mercial use (GUEST and GRANT 1991). Upon the expiration of inhibition, Phytophthora infestans, Rhizoctonia solani, the patent for the active ingredient in the fosetyl-Al, several for- Streptomyces scabies mulations of phosphite biopesticides have become available in Argentina, United States, Brazil, Ecuador and Peru. Differences in the efficacy of phosphorous acid-related products against Zusammenfassung oomycetes have been reported for different crops (OUIMETTE and COFFEY 1989; PANICKER and GANGADHARAN 1999; COOKE and LIT- Phosphite besitzen eine geringe Umwelttoxizität sowie eine TLE 2002; BROWN et al. 2004; VAWDREY and WESTERHUIS 2007). gute direkte und indirekte Wirkung gegenüber Oomyceten- Phosphites, as biopesticides, have both direct and indirect Pathogenen von Pflanzen. Wir zeigen hier, dass sie ebenfalls mode of action (GUEST and BOMPEIX 1990) and in crops, they die durch Phytophthora infestans, Fusarium solani and Rhizoc- can not be directly used as a sole source of nutritional phos- tonia solani verursachten Symptome an Kartoffeln nach einer phorus (MCDONALD et al. 2001). Direct effects on the oomycet- Knollenbehandlung vermindern. Vier Kartoffelpathogene es include: inhibition of mycelial growth, changes in the com- wurden mit dem Ziel untersucht, die direkte Wirkungsweise position of the mycelium surface, increased activity of the von Calcium-, Kalium- und Kupfer-Phosphiten (CaPhi, KPhi pentose phosphate pathway, changes in the metabolism of und CuPhi) auf die Erreger sowie die chemischen Determi- pyrophosphate and inhibition of enzymes allosterically regu- nanten ihrer direkten antimikrobiellen Aktivität zu ermitteln. lated by phosphate (GUEST and BOMPEIX 1990; GUEST and Weiterhin wurde die Wirkung von Azidifizierung und Ionen- GRANT 1991; NIERE et al. 1994; STEHMANN and GRANT 2000). stärke nach Zugabe von Phosphiten auf antimikrobielle, fun- Sporulation and germination of Phytophthora species have gizide und fungistatische Aktivität untersucht. Die Phosphite also been shown to be suppressed by these biopesticides beeinträchtigten das Wachstum aller untersuchten Erreger. (COHEN and COFFEY 1986; GARBELOTTO et al. 2009). Indirect Phytophthora infestans wurde durch alle verwendeten Phos- effects of phosphites are thought to be the activation of plant phite am stärksten inhibiert, gefolgt von Streptomyces scabies, defence responses (GUEST and BOMPEIX 1990; ANDREU et al. während die Wirkung auf Rhizoctonia solani und Fusarium 2006; LOBATO et al. 2008a). solani geringer war. CuPhi besaß die höchste antimikrobielle Previously, we have tested calcium and potassium phosphites Aktivität gegenüber den vier untersuchten Pathogene, gefolgt (CaPhi and KPhi, respectively) commercialized as “nutritional J.Plant Dis.Protect. 3/2010 Lobato et al.: Activity of phosphites against potato pathogens 103 compounds with antifungal action” (Agro-EMCODI), against tuber slices of cv. Spunta and incubated in darkness at 18°C several diseases in the potato crop. These Phi applied to potato for 7 days until new sporulation appeared. An inoculation seed tubers immediately after cutting, increased resistance needle was used to transfer mycelium from the tuber slice to against Phytophthora infestans, Fusarium solani and Rhizocto- rye A agar (CATEN and JINKS 1968), supplemented with ampi- nia solani. Protection was high against P. infestans, intermedi- cillin (200 mg l–1), Benlate (50% WP, 100 mg l–1), PCNB ate against F. solani and low against R. solani for all cultivars (75% WP, 67 mg l–1), olymixin B (50 mg l–1) and rifampicin tested (LOBATO et al. 2008b). On the other hand, foliar applica- (20 mg l–1), and then incubated at 18°C for 10 days. Mycelium tions of CaPhi or KPhi provided protection against P. infestans from 10-day-old culture was used for growth inhibition assays. in all cultivars analysed, although protection degree was cul- A pathogenic isolate of Rhizoctonia solani (AG-3) and tivar-specific (ANDREU et al. 2006; LOBATO et al. 2008b). Tubers Fusarium solani f. sp. eumartii isolate 3122 were provided by from plants treated in foliage showed a smaller colony diame- the Laboratorio de Fitopatología, INTA Balcarce, Argentina ter of P. infestans and a reduction of the lesion area caused by and maintained on potato dextrose agar (PDA) at 18°C and F. solani and Erwinia carotovora when artificially infected; 25°C, respectively, in darkness. KPhi had a stronger effect than CaPhi (LOBATO et al. 2008a). Streptomyces scabies was provided by Diagnósticos Vege- Although we have described some responses in planta after tales SRL, Mar del Plata, Argentina. The strain was grown on Phi application, a direct mode of action of these Phi can not be an isolation medium containing 0.4 g casein, 1.0 g starch, discarded within the general defence response, due to the 0.5 g potassium nitrate, 0.2 g potassium monohydrogen phos- different resistance levels obtained for the different pathogens phate, 0.1 g magnesium phosphate, 0.1 g calcium carbonate tested. To gain better insight into the direct mode of action of and 15 g agar per litre. phosphites on different potato pathogens, and to ascertain chemical determinants in their direct antimicrobial activity, four potato pathogens were assayed with respect to i) sensi- 2.2 Chemicals tivity toward CaPhi, KPhi and CuPhi, ii) contribution of acidi- fication and ionic strength changes after Phi addition on the Calcium, potassium and copper phosphites (CaPhi: 25% P2O5, inhibitory activity of these compounds, and iii) fungicidal or 8% Ca; KPhi: 30% P2O5, 20% K2O and CuPhi: 25% P2O5, 5% fungistatic activity. Cu, respectively), were formulated by PFG International SA (Lerida, España) and provided by Agro-EMCODI SA (Buenos Aires, Argentina). Final concentrations of phosphites
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